Actively tunable graphene ribbon based multi-band THz polarizer with a high extinction ratio
Anjali, R. K. Varshney, Sunil Kumar
Abstract
An electrically tunable surface plasmon resonance based graphene ribbon (GR) terahertz (THz) polarizer with an adjustable operating frequency, high extinction ratio, and low insertion loss is reported here, and is simple and fabrication feasible. The proposed metasurface structure comprises a periodic array of graphene ribbons deposited on a quartz–silicon substrate. The operating frequency of the GR-polarizer can be tuned by varying the gap between GRs, GR pitch, GR width, and Fermi level in graphene. Beyond the available graphene-based polarizers, the proposed device exhibits a high extinction ratio (ER) of up to 75 dB with simultaneous insertion loss of ∼1.5dB at the optimized frequency of 1.69 THz. In addition, an average ER of ∼30dB with insertion loss of ∼2dB in the broad frequency range of 0.8–2.5 THz is demonstrated. Such metastructure polarizing devices, enriched with the nontrivial functionalities of graphene, would open up a fertile platform for designing a range of integrated photonic components for useful applications in THz optoelectronics, biomedical engineering, and microfluidics.